kubernetes-handbook/practice/node-installation.md

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# 部署node节点
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kubernetes node 节点包含如下组件:
+ Flanneld参考我之前写的文章[Kubernetes基于Flannel的网络配置](http://rootsongjc.github.io/blogs/kubernetes-network-config/)之前没有配置TLS现在需要在serivce配置文件中增加TLS配置。
+ Docker1.12.5docker的安装很简单这里也不说了。
+ kubelet
+ kube-proxy
下面着重讲`kubelet`和`kube-proxy`的安装同时还要将之前安装的flannel集成TLS验证。
**注意**:每台 node 上都需要安装 flannelmaster 节点上可以不必安装。
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## 目录和文件
我们再检查一下三个节点上,经过前几步操作生成的配置文件。
``` bash
$ ls /etc/kubernetes/ssl
admin-key.pem admin.pem ca-key.pem ca.pem kube-proxy-key.pem kube-proxy.pem kubernetes-key.pem kubernetes.pem
$ ls /etc/kubernetes/
apiserver bootstrap.kubeconfig config controller-manager kubelet kube-proxy.kubeconfig proxy scheduler ssl token.csv
```
## 配置Flanneld
参考我之前写的文章[Kubernetes基于Flannel的网络配置](http://rootsongjc.github.io/blogs/kubernetes-network-config/)之前没有配置TLS现在需要在serivce配置文件中增加TLS配置。
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直接使用yum安装flanneld即可。
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```shell
yum install -y flannel
```
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service配置文件`/usr/lib/systemd/system/flanneld.service`。
```ini
[Unit]
Description=Flanneld overlay address etcd agent
After=network.target
After=network-online.target
Wants=network-online.target
After=etcd.service
Before=docker.service
[Service]
Type=notify
EnvironmentFile=/etc/sysconfig/flanneld
EnvironmentFile=-/etc/sysconfig/docker-network
ExecStart=/usr/bin/flanneld-start \
-etcd-endpoints=${ETCD_ENDPOINTS} \
-etcd-prefix=${ETCD_PREFIX} \
$FLANNEL_OPTIONS
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ExecStartPost=/usr/libexec/flannel/mk-docker-opts.sh -k DOCKER_NETWORK_OPTIONS -d /run/flannel/docker
Restart=on-failure
[Install]
WantedBy=multi-user.target
RequiredBy=docker.service
```
`/etc/sysconfig/flanneld`配置文件。
```ini
# Flanneld configuration options
# etcd url location. Point this to the server where etcd runs
ETCD_ENDPOINTS="https://172.20.0.113:2379,https://172.20.0.114:2379,https://172.20.0.115:2379"
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# etcd config key. This is the configuration key that flannel queries
# For address range assignment
ETCD_PREFIX="/kube-centos/network"
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# Any additional options that you want to pass
FLANNEL_OPTIONS="-etcd-cafile=/etc/kubernetes/ssl/ca.pem -etcd-certfile=/etc/kubernetes/ssl/kubernetes.pem -etcd-keyfile=/etc/kubernetes/ssl/kubernetes-key.pem"
```
在FLANNEL_OPTIONS中增加TLS的配置。
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**在etcd中创建网络配置**
执行下面的命令为docker分配IP地址段。
```shell
etcdctl --endpoints=https://172.20.0.113:2379,https://172.20.0.114:2379,https://172.20.0.115:2379 \
--ca-file=/etc/kubernetes/ssl/ca.pem \
--cert-file=/etc/kubernetes/ssl/kubernetes.pem \
--key-file=/etc/kubernetes/ssl/kubernetes-key.pem \
mkdir /kube-centos/network
etcdctl --endpoints=https://172.20.0.113:2379,https://172.20.0.114:2379,https://172.20.0.115:2379 \
--ca-file=/etc/kubernetes/ssl/ca.pem \
--cert-file=/etc/kubernetes/ssl/kubernetes.pem \
--key-file=/etc/kubernetes/ssl/kubernetes-key.pem \
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mk /kube-centos/network/config '{"Network":"172.30.0.0/16","SubnetLen":24,"Backend":{"Type":"vxlan"}}'
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```
如果你要使用`host-gw`模式可以直接将vxlan改成`host-gw`即可。
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**配置Docker**
Flannel的[文档](https://github.com/coreos/flannel/blob/master/Documentation/running.md)中有写**Docker Integration**
Docker daemon accepts `--bip` argument to configure the subnet of the docker0 bridge. It also accepts `--mtu` to set the MTU for docker0 and veth devices that it will be creating. Since flannel writes out the acquired subnet and MTU values into a file, the script starting Docker can source in the values and pass them to Docker daemon:
```
source /run/flannel/subnet.env
docker daemon --bip=${FLANNEL_SUBNET} --mtu=${FLANNEL_MTU} &
```
Systemd users can use `EnvironmentFile` directive in the .service file to pull in `/run/flannel/subnet.env`
如果你不是使用yum安装的flanneld那么需要下载flannel github release中的tar包解压后会获得一个**mk-docker-opts.sh**文件。
这个文件是用来`Generate Docker daemon options based on flannel env file`。
执行`./mk-docker-opts.sh -i`将会生成如下两个文件环境变量文件。
/run/flannel/subnet.env
```
FLANNEL_NETWORK=172.30.0.0/16
FLANNEL_SUBNET=172.30.46.1/24
FLANNEL_MTU=1450
FLANNEL_IPMASQ=false
```
/run/docker_opts.env
```
DOCKER_OPT_BIP="--bip=172.30.46.1/24"
DOCKER_OPT_IPMASQ="--ip-masq=true"
DOCKER_OPT_MTU="--mtu=1450"
```
**设置docker0网桥的IP地址**
```shell
source /run/flannel/subnet.env
ifconfig docker0 $FLANNEL_SUBNET
```
这样docker0和flannel网桥会在同一个子网中
```
6: docker0: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc noqueue state DOWN
link/ether 02:42:da:bf:83:a2 brd ff:ff:ff:ff:ff:ff
inet 172.30.38.1/24 brd 172.30.38.255 scope global docker0
valid_lft forever preferred_lft forever
7: flannel.1: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1450 qdisc noqueue state UNKNOWN
link/ether 9a:29:46:61:03:44 brd ff:ff:ff:ff:ff:ff
inet 172.30.38.0/32 scope global flannel.1
valid_lft forever preferred_lft forever
```
同时在 docker 的配置文件 [docker.service](../systemd/docker.service) 中增加环境变量配置:
```ini
EnvironmentFile=-/run/flannel/docker
EnvironmentFile=-/run/docker_opts.env
EnvironmentFile=-/run/flannel/subnet.env
```
防止主机重启后 docker 自动重启时加载不到该上述环境变量。
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**启动docker**
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重启了docker后还要重启kubelet这时又遇到问题kubelet启动失败。报错
```
Mar 31 16:44:41 sz-pg-oam-docker-test-002.tendcloud.com kubelet[81047]: error: failed to run Kubelet: failed to create kubelet: misconfiguration: kubelet cgroup driver: "cgroupfs" is different from docker cgroup driver: "systemd"
```
这是kubelet与docker的**cgroup driver**不一致导致的kubelet启动的时候有个`—cgroup-driver`参数可以指定为"cgroupfs"或者“systemd”。
```
--cgroup-driver string Driver that the kubelet uses to manipulate cgroups on the host. Possible values: 'cgroupfs', 'systemd' (default "cgroupfs")
```
**启动flannel**
```shell
systemctl daemon-reload
systemctl start flanneld
systemctl status flanneld
```
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现在查询etcd中的内容可以看到
```bash
$etcdctl --endpoints=${ETCD_ENDPOINTS} \
--ca-file=/etc/kubernetes/ssl/ca.pem \
--cert-file=/etc/kubernetes/ssl/kubernetes.pem \
--key-file=/etc/kubernetes/ssl/kubernetes-key.pem \
ls /kube-centos/network/subnets
/kube-centos/network/subnets/172.30.14.0-24
/kube-centos/network/subnets/172.30.38.0-24
/kube-centos/network/subnets/172.30.46.0-24
$etcdctl --endpoints=${ETCD_ENDPOINTS} \
--ca-file=/etc/kubernetes/ssl/ca.pem \
--cert-file=/etc/kubernetes/ssl/kubernetes.pem \
--key-file=/etc/kubernetes/ssl/kubernetes-key.pem \
get /kube-centos/network/config
{ "Network": "172.30.0.0/16", "SubnetLen": 24, "Backend": { "Type": "vxlan" } }
$etcdctl get /kube-centos/network/subnets/172.30.14.0-24
{"PublicIP":"172.20.0.114","BackendType":"vxlan","BackendData":{"VtepMAC":"56:27:7d:1c:08:22"}}
$etcdctl get /kube-centos/network/subnets/172.30.38.0-24
{"PublicIP":"172.20.0.115","BackendType":"vxlan","BackendData":{"VtepMAC":"12:82:83:59:cf:b8"}}
$etcdctl get /kube-centos/network/subnets/172.30.46.0-24
{"PublicIP":"172.20.0.113","BackendType":"vxlan","BackendData":{"VtepMAC":"e6:b2:fd:f6:66:96"}}
```
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## 安装和配置 kubelet
kubelet 启动时向 kube-apiserver 发送 TLS bootstrapping 请求,需要先将 bootstrap token 文件中的 kubelet-bootstrap 用户赋予 system:node-bootstrapper cluster 角色(role)
然后 kubelet 才能有权限创建认证请求(certificate signing requests)
``` bash
cd /etc/kubernetes
kubectl create clusterrolebinding kubelet-bootstrap \
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--clusterrole=system:node-bootstrapper \
--user=kubelet-bootstrap
```
+ `--user=kubelet-bootstrap` 是在 `/etc/kubernetes/token.csv` 文件中指定的用户名,同时也写入了 `/etc/kubernetes/bootstrap.kubeconfig` 文件;
### 下载最新的 kubelet 和 kube-proxy 二进制文件
``` bash
wget https://dl.k8s.io/v1.6.0/kubernetes-server-linux-amd64.tar.gz
tar -xzvf kubernetes-server-linux-amd64.tar.gz
cd kubernetes
tar -xzvf kubernetes-src.tar.gz
cp -r ./server/bin/{kube-proxy,kubelet} /usr/local/bin/
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```
### 创建 kubelet 的service配置文件
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文件位置`/usr/lib/systemd/system/kubelet.service`。
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```ini
[Unit]
Description=Kubernetes Kubelet Server
Documentation=https://github.com/GoogleCloudPlatform/kubernetes
After=docker.service
Requires=docker.service
[Service]
WorkingDirectory=/var/lib/kubelet
EnvironmentFile=-/etc/kubernetes/config
EnvironmentFile=-/etc/kubernetes/kubelet
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ExecStart=/usr/local/bin/kubelet \
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$KUBE_LOGTOSTDERR \
$KUBE_LOG_LEVEL \
$KUBELET_API_SERVER \
$KUBELET_ADDRESS \
$KUBELET_PORT \
$KUBELET_HOSTNAME \
$KUBE_ALLOW_PRIV \
$KUBELET_POD_INFRA_CONTAINER \
$KUBELET_ARGS
Restart=on-failure
[Install]
WantedBy=multi-user.target
```
kubelet的配置文件`/etc/kubernetes/kubelet`。其中的IP地址更改为你的每台node节点的IP地址。
注意:`/var/lib/kubelet`需要手动创建。
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``` bash
###
## kubernetes kubelet (minion) config
#
## The address for the info server to serve on (set to 0.0.0.0 or "" for all interfaces)
KUBELET_ADDRESS="--address=172.20.0.113"
#
## The port for the info server to serve on
#KUBELET_PORT="--port=10250"
#
## You may leave this blank to use the actual hostname
KUBELET_HOSTNAME="--hostname-override=172.20.0.113"
#
## location of the api-server
KUBELET_API_SERVER="--api-servers=http://172.20.0.113:8080"
#
## pod infrastructure container
KUBELET_POD_INFRA_CONTAINER="--pod-infra-container-image=sz-pg-oam-docker-hub-001.tendcloud.com/library/pod-infrastructure:rhel7"
#
## Add your own!
KUBELET_ARGS="--cgroup-driver=systemd --cluster-dns=10.254.0.2 --experimental-bootstrap-kubeconfig=/etc/kubernetes/bootstrap.kubeconfig --kubeconfig=/etc/kubernetes/kubelet.kubeconfig --require-kubeconfig --cert-dir=/etc/kubernetes/ssl --cluster-domain=cluster.local --hairpin-mode promiscuous-bridge --serialize-image-pulls=false"
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```
+ `--address` 不能设置为 `127.0.0.1`,否则后续 Pods 访问 kubelet 的 API 接口时会失败,因为 Pods 访问的 `127.0.0.1` 指向自己而不是 kubelet
+ 如果设置了 `--hostname-override` 选项,则 `kube-proxy` 也需要设置该选项,否则会出现找不到 Node 的情况;
+ `"--cgroup-driver` 配置成 `systemd`,不要使用`cgroup`,否则在 CentOS 系统中 kubelet 讲启动失败。
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+ `--experimental-bootstrap-kubeconfig` 指向 bootstrap kubeconfig 文件kubelet 使用该文件中的用户名和 token 向 kube-apiserver 发送 TLS Bootstrapping 请求;
+ 管理员通过了 CSR 请求后kubelet 自动在 `--cert-dir` 目录创建证书和私钥文件(`kubelet-client.crt` 和 `kubelet-client.key`),然后写入 `--kubeconfig` 文件;
+ 建议在 `--kubeconfig` 配置文件中指定 `kube-apiserver` 地址,如果未指定 `--api-servers` 选项,则必须指定 `--require-kubeconfig` 选项后才从配置文件中读取 kube-apiserver 的地址,否则 kubelet 启动后将找不到 kube-apiserver (日志中提示未找到 API Server`kubectl get nodes` 不会返回对应的 Node 信息;
+ `--cluster-dns` 指定 kubedns 的 Service IP(可以先分配,后续创建 kubedns 服务时指定该 IP)`--cluster-domain` 指定域名后缀,这两个参数同时指定后才会生效;
+ `--cluster-domain` 指定 pod 启动时 `/etc/resolve.conf` 文件中的 `search domain` ,起初我们将其配置成了 `cluster.local.`,这样在解析 service 的 DNS 名称时是正常的,可是在解析 headless service 中的 FQDN pod name 的时候却错误,因此我们将其修改为 `cluster.local`,去掉嘴后面的 ”点号“ 就可以解决该问题,关于 kubernetes 中的域名/服务名称解析请参见我的另一篇文章。
+ `--kubeconfig=/etc/kubernetes/kubelet.kubeconfig `中指定的`kubelet.kubeconfig`文件在第一次启动kubelet之前并不存在请看下文当通过CSR请求后会自动生成`kubelet.kubeconfig`文件,如果你的节点上已经生成了`~/.kube/config`文件,你可以将该文件拷贝到该路径下,并重命名为`kubelet.kubeconfig`所有node节点可以共用同一个kubelet.kubeconfig文件这样新添加的节点就不需要再创建CSR请求就能自动添加到kubernetes集群中。同样在任意能够访问到kubernetes集群的主机上使用`kubectl --kubeconfig`命令操作集群时,只要使用`~/.kube/config`文件就可以通过权限认证因为这里面已经有认证信息并认为你是admin用户对集群拥有所有权限。
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+ `KUBELET_POD_INFRA_CONTAINER` 是基础镜像容器,这里我用的是私有镜像仓库地址,**大家部署的时候需要修改为自己的镜像**。我上传了一个到时速云上,可以直接 `docker pull index.tenxcloud.com/jimmy/pod-infrastructure` 下载。
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完整 unit 见 [kubelet.service](../systemd/kubelet.service)
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### 启动kublet
``` bash
systemctl daemon-reload
systemctl enable kubelet
systemctl start kubelet
systemctl status kubelet
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```
### 通过 kublet 的 TLS 证书请求
kubelet 首次启动时向 kube-apiserver 发送证书签名请求,必须通过后 kubernetes 系统才会将该 Node 加入到集群。
查看未授权的 CSR 请求
``` bash
$ kubectl get csr
NAME AGE REQUESTOR CONDITION
csr-2b308 4m kubelet-bootstrap Pending
$ kubectl get nodes
No resources found.
```
通过 CSR 请求
``` bash
$ kubectl certificate approve csr-2b308
certificatesigningrequest "csr-2b308" approved
$ kubectl get nodes
NAME STATUS AGE VERSION
10.64.3.7 Ready 49m v1.6.1
```
自动生成了 kubelet kubeconfig 文件和公私钥
``` bash
$ ls -l /etc/kubernetes/kubelet.kubeconfig
-rw------- 1 root root 2284 Apr 7 02:07 /etc/kubernetes/kubelet.kubeconfig
$ ls -l /etc/kubernetes/ssl/kubelet*
-rw-r--r-- 1 root root 1046 Apr 7 02:07 /etc/kubernetes/ssl/kubelet-client.crt
-rw------- 1 root root 227 Apr 7 02:04 /etc/kubernetes/ssl/kubelet-client.key
-rw-r--r-- 1 root root 1103 Apr 7 02:07 /etc/kubernetes/ssl/kubelet.crt
-rw------- 1 root root 1675 Apr 7 02:07 /etc/kubernetes/ssl/kubelet.key
```
注意假如你更新kubernetes的证书只要没有更新`token.csv`当重启kubelet后该node就会自动加入到kuberentes集群中而不会重新发送`certificaterequest`也不需要在master节点上执行`kubectl certificate approve`操作。前提是不要删除node节点上的`/etc/kubernetes/ssl/kubelet*`和`/etc/kubernetes/kubelet.kubeconfig`文件。否则kubelet启动时会提示找不到证书而失败。
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## 配置 kube-proxy
**创建 kube-proxy 的service配置文件**
文件路径`/usr/lib/systemd/system/kube-proxy.service`。
```ini
[Unit]
Description=Kubernetes Kube-Proxy Server
Documentation=https://github.com/GoogleCloudPlatform/kubernetes
After=network.target
[Service]
EnvironmentFile=-/etc/kubernetes/config
EnvironmentFile=-/etc/kubernetes/proxy
ExecStart=/usr/local/bin/kube-proxy \
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$KUBE_LOGTOSTDERR \
$KUBE_LOG_LEVEL \
$KUBE_MASTER \
$KUBE_PROXY_ARGS
Restart=on-failure
LimitNOFILE=65536
[Install]
WantedBy=multi-user.target
```
kube-proxy配置文件`/etc/kubernetes/proxy`。
``` bash
###
# kubernetes proxy config
# default config should be adequate
# Add your own!
KUBE_PROXY_ARGS="--bind-address=172.20.0.113 --hostname-override=172.20.0.113 --kubeconfig=/etc/kubernetes/kube-proxy.kubeconfig --cluster-cidr=10.254.0.0/16"
```
+ `--hostname-override` 参数值必须与 kubelet 的值一致,否则 kube-proxy 启动后会找不到该 Node从而不会创建任何 iptables 规则;
+ kube-proxy 根据 `--cluster-cidr` 判断集群内部和外部流量,指定 `--cluster-cidr``--masquerade-all` 选项后 kube-proxy 才会对访问 Service IP 的请求做 SNAT
+ `--kubeconfig` 指定的配置文件嵌入了 kube-apiserver 的地址、用户名、证书、秘钥等请求和认证信息;
+ 预定义的 RoleBinding `cluster-admin` 将User `system:kube-proxy` 与 Role `system:node-proxier` 绑定,该 Role 授予了调用 `kube-apiserver` Proxy 相关 API 的权限;
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完整 unit 见 [kube-proxy.service](../systemd/kube-proxy.service)
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### 启动 kube-proxy
``` bash
systemctl daemon-reload
systemctl enable kube-proxy
systemctl start kube-proxy
systemctl status kube-proxy
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```
## 验证测试
我们创建一个niginx的service试一下集群是否可用。
```bash
$ kubectl run nginx --replicas=2 --labels="run=load-balancer-example" --image=sz-pg-oam-docker-hub-001.tendcloud.com/library/nginx:1.9 --port=80
deployment "nginx" created
$ kubectl expose deployment nginx --type=NodePort --name=example-service
service "example-service" exposed
$ kubectl describe svc example-service
Name: example-service
Namespace: default
Labels: run=load-balancer-example
Annotations: <none>
Selector: run=load-balancer-example
Type: NodePort
IP: 10.254.62.207
Port: <unset> 80/TCP
NodePort: <unset> 32724/TCP
Endpoints: 172.30.60.2:80,172.30.94.2:80
Session Affinity: None
Events: <none>
$ curl "10.254.62.207:80"
<!DOCTYPE html>
<html>
<head>
<title>Welcome to nginx!</title>
<style>
body {
width: 35em;
margin: 0 auto;
font-family: Tahoma, Verdana, Arial, sans-serif;
}
</style>
</head>
<body>
<h1>Welcome to nginx!</h1>
<p>If you see this page, the nginx web server is successfully installed and
working. Further configuration is required.</p>
<p>For online documentation and support please refer to
<a href="http://nginx.org/">nginx.org</a>.<br/>
Commercial support is available at
<a href="http://nginx.com/">nginx.com</a>.</p>
<p><em>Thank you for using nginx.</em></p>
</body>
</html>
```
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提示上面的测试示例中使用的nginx是我的私有镜像仓库中的镜像`sz-pg-oam-docker-hub-001.tendcloud.com/library/nginx:1.9`大家在测试过程中请换成自己的nginx镜像地址。
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访问`172.20.0.113:32724`或`172.20.0.114:32724`或者`172.20.0.115:32724`都可以得到nginx的页面。
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![welcome-nginx](http://olz1di9xf.bkt.clouddn.com/kubernetes-installation-test-nginx.png)
## 参考
[Kubelet 的认证授权](../guide/kubelet-authentication-authorization.md)